//
// TestCase.h
//


#ifndef CppUnit_TestCase_INCLUDED
#define CppUnit_TestCase_INCLUDED


#include "CppUnit/CppUnit.h"
#include "CppUnit/Guards.h"
#include "CppUnit/Test.h"
#include "CppUnit/TestResult.h"
#include "CppUnit/CppUnitException.h"
#include <string>
#include <vector>
#include <typeinfo>


namespace CppUnit {


class TestResult;


/*
 * A test case defines the fixture to run multiple tests. To define a test case
 * 1) implement a subclass of TestCase
 * 2) define instance variables that store the state of the fixture
 * 3) initialize the fixture state by overriding setUp
 * 4) clean-up after a test by overriding tearDown.
 *
 * Each test runs in its own fixture so there
 * can be no side effects among test runs.
 * Here is an example:
 *
 * class MathTest : public TestCase {
 *     protected: int m_value1;
 *     protected: int m_value2;
 *
 *     public: MathTest (std::string name)
 *                 : TestCase (name) {
 *     }
 *
 *     protected: void setUp () {
 *         m_value1 = 2;
 *         m_value2 = 3;
 *     }
 * }
 *
 *
 * For each test implement a method which interacts
 * with the fixture. Verify the expected results with assertions specified
 * by calling assert on the expression you want to test:
 *
 *    protected: void testAdd () {
 *        int result = value1 + value2;
 *        assert (result == 5);
 *    }
 *
 * Once the methods are defined you can run them. To do this, use
 * a TestCaller.
 *
 * Test *test = new TestCaller<MathTest>("testAdd", MathTest::testAdd);
 * test->run ();
 *
 *
 * The tests to be run can be collected into a TestSuite. CppUnit provides
 * different test runners which can run a test suite and collect the results.
 * The test runners expect a static method suite as the entry
 * point to get a test to run.
 *
 * public: static MathTest::suite () {
 *      TestSuite *suiteOfTests = new TestSuite;
 *      suiteOfTests->addTest(new TestCaller<MathTest>("testAdd", testAdd));
 *      suiteOfTests->addTest(new TestCaller<MathTest>("testDivideByZero", testDivideByZero));
 *      return suiteOfTests;
 *  }
 *
 * Note that the caller of suite assumes lifetime control
 * for the returned suite.
 *
 * see TestResult, TestSuite and TestCaller
 *
 */
class CppUnit_API TestCase: public Test
{
	REFERENCEOBJECT (TestCase)

public:
	TestCase(const std::string& name, Test::Type testType = Test::Normal);
	~TestCase() override;

	void run(TestResult* result, const Test::Callback& callback = nullptr) override;
	virtual TestResult* run();
	int countTestCases() const override;
	std::string toString() const override;
	Test::Type getType() const override;
	void setType(Test::Type testType);
	const std::string& name() const;

	virtual void setUp();
	virtual void setUp(const std::vector<std::string>& setup);
	virtual void tearDown();

protected:
	virtual void runTest();
	TestResult* defaultResult();

	void assertImplementation(bool condition,
							  const std::string& conditionExpression = "",
							  long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
							  const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME);

	void loop1assertImplementation(bool condition,
								   const std::string& conditionExpression = "",
								   long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
								   long dataLineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
								   const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME);

	void loop2assertImplementation(bool condition,
								   const std::string& conditionExpression = "",
								   long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
								   long data1LineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
								   long data2LineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
								   const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME);

	template <typename T1, typename T2,
		typename = std::enable_if_t<std::is_arithmetic_v<T1>, T1>,
		typename = std::enable_if_t<std::is_arithmetic_v<T2>, T2>>
	void assertEquals(T1 expected,
					  T2 actual,
					  long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
					  const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME)
	{
		if (expected != actual)
			assertImplementation(false, notEqualsMessage(expected, actual), lineNumber, fileName);
	}

	void assertEquals(double expected,
					  double actual,
					  double delta,
					  long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
					  const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME);

	void assertEquals(const std::string& expected,
					  const std::string& actual,
					  long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
					  const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME);

	void assertEquals(const char* expected,
					  const std::string& actual,
					  long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
					  const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME);

	void assertEquals(const void* expected,
					  const void* actual,
					  long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
					  const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME);

	template <typename T1, typename T2,
		typename = std::enable_if_t<std::is_arithmetic_v<T1>, T1>,
		typename = std::enable_if_t<std::is_arithmetic_v<T2>, T2>>
	std::string notEqualsMessage(T1 expected, T2 actual)
	{
		return "expected: " + std::to_string(expected) + " but was: " + std::to_string(actual);
	}

	std::string notEqualsMessage(const void* expected, const void* actual);
	std::string notEqualsMessage(const std::string& expected, const std::string& actual);

	void assertNotNull(const void* pointer,
					   const std::string& pointerExpression = "",
					   long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
					   const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME);

	void assertNull(const void* pointer,
					const std::string& pointerExpression = "",
					long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
					const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME);

	void fail(const std::string& message = "",
			  long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
			  const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME);

	void warn(const std::string& message = "",
			  long lineNumber = CppUnitException::CPPUNIT_UNKNOWNLINENUMBER,
			  const std::string& fileName = CppUnitException::CPPUNIT_UNKNOWNFILENAME);


private:
	const std::string _name;
	Test::Type _type;
};


// Constructs a test case
inline TestCase::TestCase(const std::string& name, Test::Type testType)
	: _name (name)
{
	setType(testType);
}


// Destructs a test case
inline TestCase::~TestCase() = default;


// Returns a count of all the tests executed
inline int TestCase::countTestCases() const
{
	return 1;
}


// Returns the name of the test case
inline const std::string& TestCase::name() const
{
	return _name;
}


// A hook for fixture set up
inline void TestCase::setUp()
{
}


// A hook for fixture set up with command line arguments
inline void TestCase::setUp(const std::vector<std::string>&)
{
}


// A hook for fixture tear down
inline void TestCase::tearDown()
{
}


// Returns the name of the test case instance
inline std::string TestCase::toString() const
{
	const std::type_info& thisClass = typeid(*this);
	return TestResult::demangle(thisClass.name()) + "." + name();
}


// Returns the type of the test, see Test::Type
inline Test::Type TestCase::getType() const
{
	return _type;
}


// Set the type of the test, see Test::Type
inline void TestCase::setType(Test::Type testType)
{
	_type = testType;
}


// A set of macros which allow us to get the line number
// and file name at the point of an error.
// Just goes to show that preprocessors do have some
// redeeming qualities.

// for backward compatibility only
// (may conflict with C assert, use at your own risk)
#undef assert
#define assert(condition) \
	(this->assertImplementation((condition), (#condition), __LINE__, __FILE__))

#define assertTrue(condition) \
	(this->assertImplementation((condition), (#condition), __LINE__, __FILE__))

#define assertFalse(condition) \
	(this->assertImplementation(!(condition), (#condition), __LINE__, __FILE__))

#define loop_1_assert(data1line, condition) \
	(this->loop1assertImplementation((condition), (#condition), __LINE__, data1line, __FILE__))

#define loop_2_assert(data1line, data2line, condition) \
	(this->loop2assertImplementation((condition), (#condition), __LINE__, data1line, data2line, __FILE__))

#define assertEqualDelta(expected, actual, delta) \
	(this->assertEquals((expected), (actual), (delta), __LINE__, __FILE__))

#define assertEqual(expected, actual) \
	(this->assertEquals((expected), (actual), __LINE__, __FILE__))

#define assertNullPtr(ptr) \
	(this->assertNull((ptr), #ptr, __LINE__, __FILE__))

#define assertNotNullPtr(ptr) \
	(this->assertNotNull((ptr), #ptr, __LINE__, __FILE__))

#define failmsg(msg) \
	(this->fail(msg, __LINE__, __FILE__))

#define warnmsg(msg) \
	(this->fail(msg, __LINE__, __FILE__))


} // namespace CppUnit


#endif // CppUnit_TestCase_INCLUDED
